Monitoring on-farm water storage use: from LIDAR to multi-source remote sensing

Monitoring on-farm water storage use: from LIDAR to multi-source remote sensing

Faced with unreliable rainfall patterns, Australian farmers have developed on-farm water storage (OFS) solutions over the drought years. Recent thinking in water policy under the Commonwealth government considers extending the Cap over surface water to OFS as they are not currently covered under the Cap and eluded the effective water policy arrangements across users and the states. A unified approach to Cap implementation involving water diversions from the river system, OFS and other direct diversions and withdrawals as well as groundwater extractions is essential to enhance the scope and integrity of the Cap mechanism and bring diversions within the sustainable yield limits. This study lays ground for a detailed volume assessment calibration of each OFS within a water basin, within the prospect of using such information to enable a multi-source remote sensing monitoring system.

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Bibliographic Details
Main Authors: Chemin, Yann H., Rabbani, U.
Format: Journal Article biblioteca
Language:English
Published: 2011
Subjects:water storage, monitoring, remote sensing, satellite surveys, rain, surface water, groundwater,
Online Access:https://hdl.handle.net/10568/40154
https://publications.iwmi.org/pdf/H044391.pdf
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spelling dig-cgspace-10568-401542023-06-13T06:17:44Z Monitoring on-farm water storage use: from LIDAR to multi-source remote sensing Chemin, Yann H. Rabbani, U. water storage monitoring remote sensing satellite surveys rain surface water groundwater Faced with unreliable rainfall patterns, Australian farmers have developed on-farm water storage (OFS) solutions over the drought years. Recent thinking in water policy under the Commonwealth government considers extending the Cap over surface water to OFS as they are not currently covered under the Cap and eluded the effective water policy arrangements across users and the states. A unified approach to Cap implementation involving water diversions from the river system, OFS and other direct diversions and withdrawals as well as groundwater extractions is essential to enhance the scope and integrity of the Cap mechanism and bring diversions within the sustainable yield limits. This study lays ground for a detailed volume assessment calibration of each OFS within a water basin, within the prospect of using such information to enable a multi-source remote sensing monitoring system. 2011 2014-06-13T14:47:03Z 2014-06-13T14:47:03Z Journal Article Chemin, Yann; Rabbani, U. 2011. Monitoring on-farm water storage use: from LIDAR to multi-source remote sensing. International Journal of Geoinformatics, 7(3):1-6. https://hdl.handle.net/10568/40154 https://publications.iwmi.org/pdf/H044391.pdf en Open Access p. 1-6 International Journal of Geoinformatics
institution CGIAR
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-cgspace
tag biblioteca
region Europa del Oeste
libraryname Biblioteca del CGIAR
language English
topic water storage
monitoring
remote sensing
satellite surveys
rain
surface water
groundwater
water storage
monitoring
remote sensing
satellite surveys
rain
surface water
groundwater
spellingShingle water storage
monitoring
remote sensing
satellite surveys
rain
surface water
groundwater
water storage
monitoring
remote sensing
satellite surveys
rain
surface water
groundwater
Chemin, Yann H.
Rabbani, U.
Monitoring on-farm water storage use: from LIDAR to multi-source remote sensing
description Faced with unreliable rainfall patterns, Australian farmers have developed on-farm water storage (OFS) solutions over the drought years. Recent thinking in water policy under the Commonwealth government considers extending the Cap over surface water to OFS as they are not currently covered under the Cap and eluded the effective water policy arrangements across users and the states. A unified approach to Cap implementation involving water diversions from the river system, OFS and other direct diversions and withdrawals as well as groundwater extractions is essential to enhance the scope and integrity of the Cap mechanism and bring diversions within the sustainable yield limits. This study lays ground for a detailed volume assessment calibration of each OFS within a water basin, within the prospect of using such information to enable a multi-source remote sensing monitoring system.
format Journal Article
topic_facet water storage
monitoring
remote sensing
satellite surveys
rain
surface water
groundwater
author Chemin, Yann H.
Rabbani, U.
author_facet Chemin, Yann H.
Rabbani, U.
author_sort Chemin, Yann H.
title Monitoring on-farm water storage use: from LIDAR to multi-source remote sensing
title_short Monitoring on-farm water storage use: from LIDAR to multi-source remote sensing
title_full Monitoring on-farm water storage use: from LIDAR to multi-source remote sensing
title_fullStr Monitoring on-farm water storage use: from LIDAR to multi-source remote sensing
title_full_unstemmed Monitoring on-farm water storage use: from LIDAR to multi-source remote sensing
title_sort monitoring on-farm water storage use: from lidar to multi-source remote sensing
publishDate 2011
url https://hdl.handle.net/10568/40154
https://publications.iwmi.org/pdf/H044391.pdf
work_keys_str_mv AT cheminyannh monitoringonfarmwaterstorageusefromlidartomultisourceremotesensing
AT rabbaniu monitoringonfarmwaterstorageusefromlidartomultisourceremotesensing
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